Verfügbarkeit: Ferroelectrics in microwave devices, circuits and systems

Ferroelectrics in microwave devices, circuits and systems: physics, modelling, fabrication and measurements

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Bibliographische Detailangaben
1. Verfasser:	Gevorgian, Spartak (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	London Springer 2009
Schriftenreihe:	Engineering materials and processes
Schlagworte:	Ferroelectric crystals Microwave devices Mikrowellenschaltung Mikrowellenbauelement Ferroelektrizität
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XX, 394 S. Ill., graph. Darst.
ISBN:	9781848825062

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Datensatz im Suchindex

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adam_text	Contents 1 Introduction: Overview of Agile Microwave Technologies ................ 1 1.1 Introduction ................................................................................... 1 1.2 Ferroelectrics: The Main Material Properties ............................... 2 1.2.1 Ferroelectric Properties .................................................... 3 1.2.2 Dielectric Properties ......................................................... 4 1.2.3 Acoustic Properties .......................................................... 5 1.2.4 Typical Microwave Paraelectrics ..................................... 6 1.3 Microwave Applications ............................................................... 7 1.3.1 Historical Overview ......................................................... 7 1.3.2 Current Status ................................................................... 8 1.3.3 Potential and Trends ......................................................... 11 1.4 Other Agile Microwave Technologies .......................................... 15 1.5 Conclusions ................................................................................... 18 References ................................................................................................ 18 2 Physics of the Tunable Ferroelectric Devices ....................................... 21 2.1 Introduction ................................................................................... 21 2.2 Crystal Structure, Non-Polar (Paraelectric) and Polar (Ferroelectric) Phases .................................................... 22 2.3 Dielectric Models of the Ferroelectric and Paraelectric Phases .... 24 2.3.1 Phenomenological (Thermodynamic) Theory .................. 24 2.3.2 Microscopic Theory ......................................................... 27 2.4 Engineering Models of the Dielectric Permittivity ....................... 29 2.4.1 Barrett s Formula. Bulk Single Crystals .......................... 29 2.4.2 Rupprecht-Bell-Silverman Model. Bulk Single Crystals ......................................................... 30 2.4.3 Vendik s Model. Bulk Single Crystals ............................. 31 2.4.4 Granular Ceramics and Composites ................................. 32 2.4.5 Columnar Thin Film Ceramics and Composites .............. 34 Xl Contents 2.5 Models of the Loss Tangent .......................................................... 37 2.5.1 Loss Mechanisms and Early Models of the Loss Tangent .......................................................... 37 2.5.2 Models of the Main Loss Mechanisms ............................. 39 2.6 Dielectric Nonlinearities ............................................................... 44 2.6.1 Nonlinear Performance of Paraelectrics ........................... 44 2.6.2 Nonlinearity and Power Handling Capability .................. 45 2.7 Thin Films vs. Bulk ....................................................................... 46 2.7.1 Thin Film vs. Bulk Single Crystal .................................... 46 2.7.2 Strain ................................................................................ 48 2.7.3 The Effects of the Strain on Dielectric Properties of the Thin Films .............................................................. 50 2.8 Electro-Acoustic Properties .......................................................... 52 2.8.1 Electrostriction ................................................................. 52 2.8.2 Piezoelectricity and Electrostriction ................................. 52 2.8.3 Electric Field Induced Piezoelectricity in Paraelectric Films ......................................................... 54 2.9 Bulk Conductivity ......................................................................... 56 2.10 Conclusions ................................................................................... 57 References ................................................................................................ 57 Fabrication of Ferroelectric Components and Devices ....................... 61 3.1 Introduction ................................................................................... 61 3.2 Fabrication of Devices Using Single Crystals ............................... 63 3.2.1 Growth Techniques of Single Crystals ............................. 63 3.2.2 Structural Characterization ............................................... 64 3.2.3 Bulk Single Crystal Devices ............................................ 65 3.2.4 Thin Film Single Crystal Capacitors ................................ 66 3.3 Fabrication of Devices Using Bulk Ceramics ............................... 68 3.3.1 Ceramic Processes ............................................................ 68 3.3.2 Bulk Ceramic Device Fabrication .................................... 68 3.3.3 Structure of the Bulk Ferroelectric Ceramics ................... 73 3.4 Thick Film, HTCC and LTCC Technologies ................................ 74 3.4.1 Fabrication of Devices Using Thick Film Technology.... 74 3.4.2 Fabrication of HTCC and LTCC Devices ........................ 76 3.4.3 Structure of Thick and HTCC/LTCC Films ..................... 78 3.5 Fabrication of Thin Ferroelectric Films ........................................ 80 3.5.1 Chemical Deposition Methods ......................................... 81 3.52 Physical Deposition Methods ........................................... 87 3.6 Thin Film Device Processing ........................................................ 98 3.6.1 Coplanar-Plate Configuration .......................................... 99 3.6.2 Parallel-Plate Configuration ............................................. 101 3.7 Substrate Micromachining and Passivation .................................. 106 3.7.1 Substrate Micromachining ............................................... 106 3.7.2 Substrate Passivation ........................................................ 107 Contents xiii 3.8 Conclusions ................................................................................... 108 References ................................................................................................ 109 4 Substrates, Varactors and Passive Components .................................. 115 4.1 Introduction ................................................................................... 115 4.2 Substrates ...................................................................................... 116 4.2.1 Common Substrates ......................................................... 116 4.2.2 Silicon as a Microwave Substrate .................................... 118 4.2.3 High Resistivity Silicon ................................................... 119 4.3 Varactors. Basic Designs and Figure of Merit .............................. 125 4.3.1 Basic Designs of Ferroelectric Varactors ......................... 125 4.3.2 Figure of Merit, Structure and Performance of Ferroelectric Films ....................................................... 128 4.3.3 Correlation of the Design with the Film Structure ........... 129 4.3.4 Varactor Design Issues ..................................................... 134 4.4 Equivalent Circuit Model of the Varactors ................................... 139 4.4.1 Equivalent Circuit ............................................................ 139 4.4.2 Impedance of Parallel-Plate Varactors ............................. 143 4.5 Low Frequency and Tuning Performances ................................... 144 4.5.1 С -V and P-V Performances .............................................. 144 4.5.2 I-V Performance ............................................................... 146 4.5.3 Tuneability and Response Time ....................................... 149 4.6 Microwave Performance ............................................................... 151 4.6.1 Parallel-Plate Varactors .................................................... 151 4.6.2 Coplanar-Plate Varactors ................................................. 156 4.6.3 Distributed Varactors ....................................................... 161 4.7 Power Handling Capability and High Power Varactors ................ 162 4.7.1 Parallel-Plate Varactors .................................................... 163 4.7.2 Coplanar-Plate Varactors ................................................. 164 4.8 Ferroelectrics in Passive Devices as High Permittivity Dielectric ...................................................... 165 4.8.1 High Density Capacitors .................................................. 165 4.82 MEMs with Ferroelectric Spacers .................................... 167 4.8.3 MOS Transistors with Ferroelectrics as Gate Dielectric ............................................................. 168 4.9 Conclusions ................................................................................... 169 References ................................................................................................ 170 5 Ferroelectric Devices .............................................................................. 175 5.1 Introduction ................................................................................... 175 5.2 Tunable Delay Lines and Delay Line Type Phase Shifters ........... 176 52.1 Figure of Merit ................................................................. 176 522 Periodically Loaded Lines ................................................ 177 5.2.3 Uniformly Loaded Delay Lines ........................................ 182 52.4 Other Delay Lines ............................................................ 186 xjv Contents 5.3 Phase Shifters ................................................................................ 187 5.3.1 Figure of Merit of an Analog Phase Shifter ..................... 187 5.3.2 Periodically Loaded Line Phase Shifters .......................... 188 5.3.3 Reflection Type Phase Shifters ........................................ 192 5.3.4 Phase Shifters Based on All Pass Filter Topology ........... 192 5.3.5 Other Phase Shifters ......................................................... 194 5.4 Tunable Filters .............................................................................. 196 5.4.1 Tunable Resonators .......................................................... 196 5.4.2 Bandpass Filters ............................................................... 199 5.4.3 Notch Filters ..................................................................... 203 5.5 Matching Networks (Impedance Tuners) ...................................... 204 5.6 Power Splitters .............................................................................. 206 5.7 Antennas ....................................................................................... 207 5.8 Nonlinear Devices ......................................................................... 208 5.8.1 Harmonic Generators ....................................................... 208 5.8.2 Frequency Up-Converters ................................................ 208 5.8.3 Power Limiters................................................................. 209 5.8.4 Pulse Shapers ................................................................... 210 5.8.5 Parametric Amplifiers ...................................................... 211 5.9 TFBARs ........................................................................................ 212 5.9.1 Basic Designs and Resonant Frequencies ........................ 212 5.9.2 Tunable TFBARs ............................................................. 213 5.10 Conclusions ................................................................................... 217 References ................................................................................................ 217 Circuit and System Applications of Tunable Ferroelectric Devices .. 225 6.1 Introduction ................................................................................... 225 6.2 Voltage Controlled Oscillators ...................................................... 226 6.3 Amplifiers ..................................................................................... 229 6.4 Steerable Phased Array and Beam Antennas ................................ 231 6.4.1 Phased Arrays .................................................................. 231 6.4.2 Steerable Beamformers and Phased Arrays ..................... 232 6.4.3 Nontraditional and Lens Type Steerable Beamformers ... 236 6.5 Conclusions ................................................................................... 241 References ................................................................................................ 242 Modeling .................................................................................................. 245 7.1 Introduction ................................................................................... 245 7.2 Coplanar-PIate Transmission Lines .............................................. 246 7.2.1 The Equivalent Circuit of the Lines ................................. 246 7.2.2 Coplanar-Strip Waveguides ............................................. 249 7.2.3 Coplanar Waveguides ...................................................... 259 7.3 Multilayer Substrate Coplanar-PIate Capacitors ........................... 260 7.3.1 Coplanar Plate Capacitors with the Straight Gap (Slot)... 260 7.3.2 Interdigital (IDC) Coplanar-PIate Capacitors ................... 265 Contents 7.4 Parallel-Plate Capacitor ................................................................. 267 7.5 Conclusions ................................................................................... 271 Appendix A .............................................................................................. 273 Appendix В .............................................................................................. 276 AppendixC .............................................................................................. 280 Appendix D .............................................................................................. 285 References ................................................................................................ 285 Measurements of the Dielectric Properties .......................................... 287 8.1 Introduction ................................................................................... 287 8.2 Resonant Techniques .................................................................... 289 8.2.1 Disk Resonator Technique ............................................... 289 8.2.2 Courtney Resonator .......................................................... 291 8.2.3 Composite Resonator Method .......................................... 295 8.2.4 Split-Post Dielectric Resonator Method for Thick and Thin Films ................................................................. 297 8.2.5 Open Resonator Technique .............................................. 299 8.2.6 Resonant Technique for on Wafer Characterization of the Ferroelectric Varactors and Films .......................... 302 8.2.7 Transmission Line Resonator Method ............................. 306 8.2.8 Near Field Scanning Microscope ..................................... 308 8.2.9 Uncertainty of Resonant Measurements ........................... 311 8.3 Broadband Techniques .................................................................. 317 8.3.1 Transmission/Reflection Method. Bulk Samples in Waveguides .................................................................. 317 8.3.2 Film Measurements Using Coplanar Waveguide (CPW) .............................................................................. 321 8.3.3 Film Measurements Using Coupled Microstrip Lines ..... 325 8.3.4 Measurements Using Test Varactors ................................ 326 8.4 Nonlinear Measurements of Ferroelectrics ................................... 330 8.5 Switching Time of Ferroelectric Films ......................................... 332 8.6 Conclusions ................................................................................... 334 Appendix E ............................................................................................... 336 Appendix F ............................................................................................... 343 Appendix G .............................................................................................. 346 References ................................................................................................ 347 Potentials and Perspectives .................................................................... 351 9.1 Introduction ................................................................................... 351 9.2 Multiferroics .................................................................................. 352 9.3 Ferroelectric Nanotubes. Ferromagnetic Nanowires ..................... 354 9.4 Metamaterials ................................................................................ 357 9.5 Bridging the THz Gap ............................................................... 360 9.6 Other Tunable Materials ............................................................... 361 9.6.1 Pyrochlores ....................................................................... 362 xvi Contents 9.6.2 Resistive Switching in Oxides .......................................... 364 9.6.3 High Temperature Superconductors (HTS) ...................... 367 9.6.4 Liquid Crystals ................................................................. 367 9.7 Other/New Effects ......................................................................... 370 9.7.1 Resistivity Switching in Doped SrTiO3 ............................ 370 9.7.2 Nanoscale Effects ............................................................. 372 9.7.3 Integration with Semiconductors ..................................... 372 9.8 Conclusions ................................................................................... 373 References ................................................................................................ 374 10 Concluding Remarks .............................................................................. 379 10.1 Introduction ................................................................................... 379 10.2 Stabilization of the Temperature Dependences ............................. 379 10.2.1 Intrinsic Temperature Dependences of Permittivity and Tuneability ................................................................. 380 10.2.2 Materials and Device Design Based Methods of Stabilization ................................................................. 381 10.3 Nonlinearity and Power Handling Capability ............................... 384 10.4 Hysteresis, Retention, Long Term Stability and Noise ................. 384 10.5 Reliability ...................................................................................... 387 10.6 Integration Trends ......................................................................... 388 References ................................................................................................ 389 Index ................................................................................................................ 391
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spelling	Gevorgian, Spartak Verfasser aut Ferroelectrics in microwave devices, circuits and systems physics, modelling, fabrication and measurements Spartak Gevorgian London Springer 2009 XX, 394 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Engineering materials and processes Ferroelectric crystals Microwave devices Mikrowellenschaltung (DE-588)4169891-5 gnd rswk-swf Mikrowellenbauelement (DE-588)4123765-1 gnd rswk-swf Ferroelektrizität (DE-588)4154126-1 gnd rswk-swf Mikrowellenbauelement (DE-588)4123765-1 s Ferroelektrizität (DE-588)4154126-1 s DE-604 Mikrowellenschaltung (DE-588)4169891-5 s Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017711048&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Gevorgian, Spartak Ferroelectrics in microwave devices, circuits and systems physics, modelling, fabrication and measurements Ferroelectric crystals Microwave devices Mikrowellenschaltung (DE-588)4169891-5 gnd Mikrowellenbauelement (DE-588)4123765-1 gnd Ferroelektrizität (DE-588)4154126-1 gnd
subject_GND	(DE-588)4169891-5 (DE-588)4123765-1 (DE-588)4154126-1
title	Ferroelectrics in microwave devices, circuits and systems physics, modelling, fabrication and measurements
title_auth	Ferroelectrics in microwave devices, circuits and systems physics, modelling, fabrication and measurements
title_exact_search	Ferroelectrics in microwave devices, circuits and systems physics, modelling, fabrication and measurements
title_full	Ferroelectrics in microwave devices, circuits and systems physics, modelling, fabrication and measurements Spartak Gevorgian
title_fullStr	Ferroelectrics in microwave devices, circuits and systems physics, modelling, fabrication and measurements Spartak Gevorgian
title_full_unstemmed	Ferroelectrics in microwave devices, circuits and systems physics, modelling, fabrication and measurements Spartak Gevorgian
title_short	Ferroelectrics in microwave devices, circuits and systems
title_sort	ferroelectrics in microwave devices circuits and systems physics modelling fabrication and measurements
title_sub	physics, modelling, fabrication and measurements
topic	Ferroelectric crystals Microwave devices Mikrowellenschaltung (DE-588)4169891-5 gnd Mikrowellenbauelement (DE-588)4123765-1 gnd Ferroelektrizität (DE-588)4154126-1 gnd
topic_facet	Ferroelectric crystals Microwave devices Mikrowellenschaltung Mikrowellenbauelement Ferroelektrizität
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017711048&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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